SU726352A1 - Cascade sprinkler - Google Patents

Description

The invention relates to air dedusting devices and can be used in the mining and smelting, chemical and other industries to clean industrial aerosols. A device for irrigation of hollow coloins is known, which contains in its secondary a collector and pipes installed in several pipes with nozzles at the end 1. However, this device is ineffective in capturing fine dust due to poor wettability of dust particles with ordinary water. It is also known to have a multi-sectional device for receiving and spraying a water-air mixture, which contains water and air supply pipes with water and air supply channels, these channels being connected by pipes, which together with the water supply channel form a mixing chamber and nozzles for forming the water-air mixture 12 However, the known device is also not very effective in capturing fine dust due to poor wettability of dust particles of fine fractions and, moreover, cannot be used in hollow columns (hide Ubbers, cyclones). The aim of the invention is to increase the efficiency of removing fine dust in hollow columns of jQfTeM electrifying a liquid when it is finely sprayed. This is due to the fact that the irrigator is equipped with an ionizer installed at the entrance to the air channel, a radial tube and a pair of disks, in one of each pair of which channels are made, the water and air supply pipes are located coaxially, and the pair disks are mounted on the outer tube with the gap between them, the gaps through the channels and the radial tubes are communicated respectively with the air and air supply channels, and the longitudinal axes of the channels and the radial tubes intersect at one point. FIG. 1 pokoyan cascade irrigation steppe, incision; in fig. 2 - section A-A of FIG. 1. Cascade sprinkler contains water and air supplying pipes 1 and 2, respectively external and internal, with water and air supply, channels 3 and 4 and water and BQS with air inlet pipes 5 and 6. At the exit to the air supply channel 4, the ionizer 7, and in the water supply pipe 1, the channels 8 are made. The sprinkler is provided with radial tubes 9, and the paired disks 10 are installed on the outer pipe 1 with a gap between them. With the help of channels 8 and radial tubes -9, the gaps between the paired disks 10 are in communication with the water and air supply channels 3 and 4, respectively, while the longitudinal axes of the channels and the radial tubes intersect at one point.

Works cascade sprinkler as follows.,

Sprinkler set in the center of a hollow column (scrubber, cyclone). Water through the water inlet 5, the water supply channel 3 and the channels 8 is fed into the gap between the paired disks 10 to the outlet of the radial tubes 9. To disperse the water, the compressed air through the air inlet pipe 6, the ionizer 7, the air inlet channel 4 and the radialg The tubes 9 are fed into the gap between the paired disks 10 at the exit of the channel 8. The droplets formed in the gap between the disks acquire an electric charge due to aero ions and form a multi-site electric ignition water curtain perpendicular to the flow being cleaned. of air. Dust particles entering the torch zone also acquire an electric charge, which increases the efficiency of their capture by charged drops. The body of the hollow column is in this case a precipitation electrode for charged particles of water and dust. An increase in the efficiency of trapping fine dust is due to an increase in the capture coefficient of charged drops of soft seeds due to induction forces and the appearance of

additional forces (Coulomb) attractions between the apparatus wall and charged drops and dust particles.

The use of a cascade sprinkler allows 5 to significantly increase the efficiency of finely dispersing dust and trapping.

Claims (2)

1. Go. Ovachevsky, Yu. A. Irrigators and nozzles of chemical industrial scrubbers. M., Mashchinostroenie, 1974, p. 188, fig. 144 2. Equipment and devices for complex dedusting of coal mines, cuts and processing plants. M., 1975, p. 144145 (prototype). ten FIG. one